Aircore Mobility Motor Powering everything that moves
Infinitum is pushing the boundaries of motor technology with |
10% More efficient |
Aircore Mobility motors maximize power density by combining our PCB stator, which weighs 90 percent less than an iron core stator, with high-energy magnets. |
By eliminating common points of failure associated with copper windings and insulation in traditional motors, our PCB stator has proven to be up to 9x more reliable in thirdparty testing. |
Our air core design eliminates stator core losses while eddy current losses in the rotor and magnets are negligible, making our motors highly efficient over a wide range of load conditions. |
Traction Motors Aircore Mobility motors are designed for mobility applications including Class 1 to 8 commercial vehicles, aerospace and marine applications, and |
Auxiliary Motors EVs require up to 50 small electric motors to power infotainment systems, heating and AC, window controls, and even the power steering. This means small, lightweight auxiliary motors are critical for maintaining the efficiency of the vehicle. By etching copper coils directly onto the PCB stator our Aircore Mobility motors eliminate the heavy iron core and copper windings used in conventional motors, cutting motor size and |
Aircore Mobility Motor Advantages
Mobility engineers need technology that makes it easy to quickly iterate on designs and alter components based on rapidly changing needs. With the modular nature of our Aircore Mobility motors, engineers inherently have the flexibility to experiment and add stators and rotors quickly and easily to see what configuration will best suit their power and torque needs. |
We engineered the Aircore Mobility motor specifically for high operating speeds, featuring magnet containment that is not in the way of magnetic flux, a coreless construction allowing |
With our modular axial design, mobility engineers can build multi-stator, multi-rotor motors that are slim and lightweight. This is possible because Aircore Mobility motors offer higher power and torque density. |